Collider Bounds on Indirect Dark Matter Searches: The WW Final State

Abstract

We describe an effective theory of interaction between pairs of dark matter particles (denoted ) and pairs of W bosons. Such an interaction could accommodate → WW processes, which are a major focus of indirect dark matter experiments, as well as pp → W→ W processes, which would predict excesses at the LHC in the W+MET final-state. We reinterpret an ATLAS W+MET analysis in the hadronic mode and translate the bounds to the space of indirect detection signals. We also reinterpret the W+MET analysis in terms of graviton theory through the processes W→ WG and Z→ ZG in which G is invisible. Finally, the final state is interpreted in terms of a W' model where W'→ WZ, where W decays hadronically and Z decays to neutrinos.